The following info and data is provided "as is" to help patients around the globe.
We do not endorse or review these studies in any way.
Brief Title: Perioperative Platelet Inhibition With Acetylsalicylic Acid in Patients With Resectable Tumors of the Pancreatic Head
Official Title: Perioperative Platelet Inhibition With Acetylsalicylic Acid Targeting Intraoperative Tumor Cell Seeding in Patients With Resectable Tumors of the Pancreatic Head - a Randomized, Controlled Multicenter Study
Study ID: NCT05637567
Brief Summary: This randomized, controlled clinical trial compares the perioperative treatment with acetylsalicylic acid (aspirin) in patients with cancer of the pancreatic head. The main question it aims to answer is: Do patients treated perioperatively with aspirin develop less metastasis after curative resection of pancreatic head tumors? Participants will be asked to : * take a daily aspirin tablet starting 1-4 weeks before surgery until 6 months after surgery * participate in regular follow-up visits.
Detailed Description: With few symptoms, rapid progression and early metastasis pancreatic cancer (pancreatic ductal adenocarcinoma, PDAC) is the third leading cause of cancer death worldwide. In early stages of PDAC, surgical resection followed by adjuvant chemotherapy is the mainstay of treatment. Unfortunately, the majority of patients develop tumor recurrence (most frequently in the liver) despite complete resection and adjuvant treatment. This early postoperative recurrence is a result of preoperatively present, undetected micrometastases, and, most importantly, iatrogenic dissemination of circulating tumor cells (CTCs) by surgical manipulation of the tumor during resection. CTCs can be detected in the majority of PDAC patients and correlate with worse overall survival. Survival of CTCs in the hostile environment of circulation requires resistance to physical forces (i.e., turbulence, shear stress), but also immune escape mechanisms to avoid clearance by immune cells such as natural killer (NK) cells. CTCs are highly heterogeneous and, by the majority, non-tumorigenic. The number of other nucleated blood cells such as leukocytes greatly exceeds the number of CTCs; in many solid tumors including PDAC, the average number of (detectable) CTCs is less than 10 cells / mL of whole blood. This demonstrates the inefficiency of the metastatic process, which is at least partially a result of early clearance of CTCs after entering the blood stream. After entering circulation, the first cells that CTCs come in direct contact with are platelets. This leads to activation of platelets and aggregation on the CTCs, which are thus enveloped and protected from the hostile environment in the circulation. This effect is seen in many, but not all CTCs, the underlying molecular mechanisms are currently being investigated. It is conceivable that not only shear forces and turbulence have less influence on CTCs enveloped by platelets, but also that immune cells (e.g. NK cells) in the bloodstream are less likely to detect and eliminate CTCs and therapeutic antibodies have fewer binding sites. Arguably the most decisive days in the lives of cancer patients are when they undergo surgery for tumor resection. For most solid tumors, surgery is part of all curative treatment regimens. However, the occurrence of distant metastases often brings surgery to its limits, either because not all metastatic lesions are resectable, or due to rapidly recurring metastatic disease after surgery. Many patients develop disseminated disease early after curative resection of an initially non-metastatic tumor. There are several potential reasons behind this phenomenon, most prominently the immunosuppression resulting from major surgery and the iatrogenic dissemination of CTCs during surgery. Surgery-related immunosuppression is addressed by continuous improvement of perioperative medicine such as prehabilitation or early recovery / fast-track programs as well as minimally invasive surgical procedures, whenever possible. However, only few measures have been taken so far to reduce iatrogenic dissemination of tumor cells during PDAC surgery. During cancer surgery, the tumor is inevitably touched, manipulated or even squeezed as it has to be mobilized from its surroundings while limiting the damage to neighboring structures. This manipulation of the tumor leads to iatrogenic CTC dissemination. The only clinically used measure to reduce tumor cell dissemination during surgery is currently an early ligation of tumor-draining veins prior to manipulation and mobilization of the tumor mass. This method can only be employed in tumor entities that are drained by one or few well-defined veins such as lung cancer or colorectal cancer, in which this method is successfully applied. In other tumors, which are drained by multiple small and/or initially inaccessible vessels (e.g., hepatic tumors) or in which the tumor-draining vein cannot be occluded for prolonged periods of time (e.g., the portal vein draining tumors of the pancreatic head), this "vein first" or "no touch" approach is not applicable. Since especially in pancreatic tumors, hepatic recurrence often occurs after curative resection and inevitably leads to the death of the patient, this represents a major clinical problem. Approximately 5% of cancer patients are on permanent medication with platelet inhibition (PI), most prominently acetylsalicylic acid (ASA, aspirin) for a cardiac indication. ASA is usually taken orally at a dosage of 100 mg once a day and several studies and meta-analyses have shown that perioperative ASA intake at this standard dosage leads only to a slightly increased risk of bleeding. Therefore, platelet aggregation inhibition with aspirin alone is continued perioperatively nowadays and is classified as safe. ASA medication leads to increased overall survival in several cancer entities. A meta-analysis of 22 studies evaluating survival of colorectal cancer patients in dependence of ASA treatment revealed a significant survival advantage for patients with continuous ASA treatment in comparison with patients who did not take ASA or terminated ASA intake prior to or at the time point of tumor diagnosis. So far, despite ample preclinical evidence, only few clinical studies have investigated the effect of ASA treatment on PDAC. Recently published, retrospective data indicates a significantly improved survival after curative resection of PDAC for patients with perioperative low-dose ASA medication, which is directly attributable to a reduced postoperative incidence of distant metastases. A preliminary meta-analysis (incorporating a second study investigating ASA treatment in PDAC) confirms the significantly improved disease-free survival after resection of PDAC in patients under permanent platelet inhibition with ASA. There is also evidence of a reduced incidence of distant metastases under ASA treatment in other tumor entities. The investigators hypothesize that the reason for the reduced incidence of distant metastases achieved by ASA is the inhibited platelet-mediated protection of CTCs. In conclusion, perioperative platelet inhibition with ASA may drastically reduce the postoperative incidence of hematogenous metastases with very low toxicity and risk to the patients with PDAC. Despite this favorable benefit-risk ratio, no prospective, randomized-controlled trials investigating this treatment have been conducted. As a result and despite its potential benefits, perioperative ASA treatment in patients undergoing resection of the pancreatic head for malignant indications is currently not generally recommended. The aim of this multicentric randomized-controlled trial is therefore to investigate the impact of perioperative ASA treatment on the occurrence of hematogenous metastases, survival and perioperative complications in patients undergoing pancreatic head resection (pylorus-preserving pancreaticoduodenectomy / Traverso-Longmire procedure) for PDAC.
Minimum Age: 18 Years
Eligible Ages: ADULT, OLDER_ADULT
Sex: ALL
Healthy Volunteers: No
Name: Sebastian Schoelch, MD
Affiliation: German Cancer Research Center
Role: STUDY_CHAIR